Audio

> Myrdin

Index page for Decibel Dungeon, a DIY hi-fi site for hi-fi lovers.
How To Design & Build Your Own DIY Subwoofer. This article is all about how to build your own DIY subwoofer.

When I first started researching DIY subwoofer building, I found out all of this stuff by trawling the internet and asking on forums. I think this guide will help people who want to build a subwoofer or two, but don't really know what's involved. For a relatively low budget and some time, you can make something that matches or beats the performance of a considerably more expensive commercial subwoofer. The reasons for this are simple. Commercial subwoofer manufacturers have to compromise to some degree with the size of the cabinet and the cost of components to be able to make something that appeals to the masses and is also cost-effective, so they can make a profit. Why Do I Need a Subwoofer? The reasons for this are simple.

If you take a soundtrack from a film, then, in some cases, the frequency range of the sounds in that film range from 10hz (which is below the human range of hearing) up to 20khz. Which Is Better?
The Subwoofer DIY Page. Home Speaker – Build the Best Home Theater System + Speaker Boxes Design.

Raspberry

--- Design of loudspeakers --- Loudspeaker evaluation --- Accurate stereo --- Whatever happened? --- --- Room acoustics --- Sound field control --- Other designs --- System design --- ---- "Controlled Directivity" loudspeakers ---- Linkwitz Lab inspired designs ---- Engineering information ---- DIY designs On this web page I want to provide links to engineering information, to websites or forum discussions for the purpose of spreading learning and knowledge about controlled directivity loudspeaker designs. I expect that the list will point to different design approaches. Loudspeakers in a domestic setting are used in rooms that are acoustically small in the bass region where the wavelengths are long (e.g. 7.8 m at 50 Hz) and which become increasingly larger as frequency increases and wavelength decreases (e.g. 3.4 cm at 10 kHz).